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Rearrangement nucleophiles

M. Franco, N. Rosenbach Jr., G. B. Ferreira, A. C. O. Guerra, W. B. Kover, C. C. Turci, C. J. A. Mota, Rearrangement, nucleophilic substitution, and halogen switch reactions of alkyl halides over NaY zeolite formation of the bicyclobutonium cation inside the zeolite cavity, J. Am. Chem. Soc., 2008, 130, 1592-1600. [Pg.139]

Substitution reactions which involve the production of phosphoryl linkages usually proceed readily. In (3.78) there is substitution at P by OH for Cl, followed by rearrangement. Nucleophilic substitution at P in pentavalent phosphorus halides can be effected by various nucleophiles ((3.79)... [Pg.72]

Reviews cover the topics alkynethiolates in synthesis " oxygen-exchange reactions of sulphoxides sulphonyldiazomethanes C—S bond cleavage acyl isothiocyanates radical reactions of sulphur compounds addition of sulphenyl halides to olefins " sulphenamidcs mercaptoethylation of amines sulphur as a chiral centre " stereochemistry of S and S " compounds " reductive cleavage of sulphides, synthetic uses of alkene- and alkyne-thiolates, and thio-Claisen rearrangements nucleophilic displacements at sulphur in disulphides aromatic... [Pg.1]

The synthetic and kinetic regularities of the amino-Claisen rearrangement were studied for the transformation of 2,5-dimethyl-Af-(pent-3-en-2-yl)aniline." The products are obtained via conversion of a binary r-complex formed by the reaction of N-alkenylaniline hydrochloride with the hydrochloride of the solvent (2,5-dimethylaniline). Spirocyclic oxindoles have been prepared from iodoindoles via a sequential intramolecular Ullmann coupling and Claisen rearrangement." Nucleophilic ort/io-propargylation of aryl sulfoxides has been reported to occur by intermolecular delivery of the nucleophile to sulfur followed by an intramolecular relay to carbon in a... [Pg.531]

Scheme 13.9 Asymetric total synthesis of (-)-phalarine (63) through a Wagner-Meerwein rearrangement/nucleophilic cascade sequence. Scheme 13.9 Asymetric total synthesis of (-)-phalarine (63) through a Wagner-Meerwein rearrangement/nucleophilic cascade sequence.
Xie and Floreancig [204] have reported a tandem rhenium(VII)-catalyzed allylic alcohol rearrangement/nucleophilic addition sequence for the synthesis of spiroacetals (Scheme 108). Treatment of allylic alcohols 444 with Rc207 in dichloromethane gives rise to the spiroacetals 448 and 449 in moderate yield. [Pg.262]

SCHEME 18.27. Sequential Wolff rearrangement/nucleophilic addition/cycloaddition. [Pg.511]

Two efficient syntheses of strained cyclophanes indicate the synthetic potential of allyl or benzyl sulfide intermediates, in which the combined nucleophilicity and redox activity of the sulfur atom can be used. The dibenzylic sulfides from xylylene dihalides and -dithiols can be methylated with dimethoxycarbenium tetrafiuoroborate (H. Meerwein, 1960 R.F. Borch, 1968, 1969 from trimethyl orthoformate and BFj, 3 4). The sulfonium salts are deprotonated and rearrange to methyl sulfides (Stevens rearrangement). Repeated methylation and Hofmann elimination yields double bonds (R.H. Mitchell, 1974). [Pg.38]

The high nucleophilicity of sulfur atoms is preserved, even if it is bound to electron withdrawing carbonyl groups. Thiocarboxylales, for example, substitute bromine, e.g. of a-bromo ketones. In the presence of bases the or-acylthio ketones deprotonate and rearrange to episulfides. After desulfurization with triphenylphosphine, 1,3-diketones are formed in good yield. Thiolactams react in the same way, and A. Eschenmoser (1970) has used this sequence in his vitamin B]2 synthesis (p. 261). [Pg.59]

J-Tosyloxy. d -steroids, e.g. O-tosylcholesterol, give 3,5-cyclosteroids (— /-steroids) on addition of nucleophiles. Internal hydroxyl displacement, e.g. with PClj, leads to 3fi-substituted products or overall retention of configuration at C-3 by rearrangement of the 6/5 substituent (E.M. Kosower, 1956). [Pg.288]

The reaction of alkenyl mercurials with alkenes forms 7r-allylpalladium intermediates by the rearrangement of Pd via the elimination of H—Pd—Cl and its reverse readdition. Further transformations such as trapping with nucleophiles or elimination form conjugated dienes[379]. The 7r-allylpalladium intermediate 418 formed from 3-butenoic acid reacts intramolecularly with carboxylic acid to yield the 7-vinyl-7-laCtone 4I9[380], The /i,7-titisaturated amide 421 is obtained by the reaction of 4-vinyl-2-azetidinone (420) with an organomercur-ial. Similarly homoallylic alcohols are obtained from vinylic oxetanes[381]. [Pg.81]

Allylic nitro compounds form rr-allylpalladium complexes by displacement of the nitro group and react with nucleophiles, and allylation with the tertiary nitro compound 202 takes place at the more substituted side without rearrangement to give 203[8,9,128]. [Pg.317]

Various S-nucleophiles are allylated. Allylic acetates or carbonates react with thiols or trimethylsilyl sulfide (353) to give the allylic sulfide 354[222], Allyl sulfides are prepared by Pd-catalyzed allylic rearrangement of the dithio-carbonate 355 with elimination of COS under mild conditions. The benzyl alkyl sulfide 357 can be prepared from the dithiocarbonate 356 at 65 C[223,224], The allyl aryl sufide 359 is prepared by the reaction of an allylic carbonate with the aromatic thiol 358 by use of dppb under neutral condi-tions[225]. The O-allyl phosphoro- or phosphonothionate 360 undergoes the thiono thiolo allylic rearrangement (from 0-allyl to S -allyl rearrangement) to afford 361 and 362 at 130 C[226],... [Pg.338]

Anomalous Fischer cyclizations are observed with certain c-substituted aryl-hydrazones, especially 2-alkoxy derivatives[l]. The products which are formed can generally be accounted for by an intermediate which w ould be formed by (ip50-substitution during the sigmatropic rearrangement step. Nucleophiles from the reaction medium, e.g. Cl or the solvent, are introduced at the 5-and/or 6-position of the indole ring. Even carbon nucleophiles, e.g. ethyl acetoacelate, can be incorporated if added to the reaction solution[2]. The use of 2-tosyloxy or 2-trifluoromethanesulfonyloxy derivatives has been found to avoid this complication and has proved useful in the preparation of 7-oxygen-ated indoles[3]. [Pg.64]

The rearrangement discovered by Kolosova et al. probably involves such reactivit (159). This reaction provides a good preparative method for various 5-amino-methylthiazoles (Scheme 43). No mechanism is proposed in the report, and it is not easy to understand how the C-5 enamine-like position competes with the very nucleophilic thiocarbonyl group of the formed A-4-thiazoline-2-thione. An alternative mechanism could start with ethanol addition at C-2. leading to the A-4-thiazoline (90) (Scheme 44). In this intermediate, C-5 nucleophilic reactivity would be favored bv the true enaminic structure. After alkylation on C-5,... [Pg.400]

The reaction of amines with the 4-phenylazo derivative (228) results in their rearrangement into triazolines. Depending on the basicity of the amines and the size of the alkoxy group, three different triazolines (229. 230, and 231) are obtained (Scheme 117) (454. 459, 472). In all cases, the first step involves nucleophilic addition of the amine to the carbonyl group followed by ring opening and further ring closure. [Pg.434]

Rearrangements do not normally occur which can mean either of two things Either carbocations are not intermediates or if they are they are captured by a nucleophile faster than they rearrange We shall see m Section 6 16 that the first of these is believed to be the case... [Pg.256]

Additional evidence for carbocation intermediates in certain nucleophilic substitutions comes from observing rearrangements of the kind normally associated with such species For example hydrolysis of the secondary alkyl bromide 2 bromo 3 methylbutane yields the rearranged tertiary alcohol 2 methyl 2 butanol as the only substitution product... [Pg.344]

The reactions of alcohols with hydrogen halides to give alkyl halides (Chapter 4) are nucleophilic substitution reactions of alkyloxonium ions m which water is the leaving group Primary alcohols react by an 8 2 like displacement of water from the alkyloxonium ion by halide Sec ondary and tertiary alcohols give alkyloxonium ions which form carbo cations m an S l like process Rearrangements are possible with secondary alcohols and substitution takes place with predominant but not complete inversion of configuration... [Pg.357]

The carbocations formed as intermediates when allylic halides undergo Stvfl reactions have their positive charge shared by the two end carbons of the allylic system and may be attacked by nucleophiles at either site Products may be formed with the same pattern of bonds as the starting allylic halide or with allylic rearrangement... [Pg.416]


See other pages where Rearrangement nucleophiles is mentioned: [Pg.189]    [Pg.236]    [Pg.391]    [Pg.128]    [Pg.188]    [Pg.236]    [Pg.118]    [Pg.121]    [Pg.680]    [Pg.363]    [Pg.281]    [Pg.114]    [Pg.189]    [Pg.236]    [Pg.391]    [Pg.128]    [Pg.188]    [Pg.236]    [Pg.118]    [Pg.121]    [Pg.680]    [Pg.363]    [Pg.281]    [Pg.114]    [Pg.79]    [Pg.265]    [Pg.158]    [Pg.300]    [Pg.301]    [Pg.304]    [Pg.318]    [Pg.140]    [Pg.445]   


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Carbon nucleophiles allylic rearrangement

Displacement reactions, nucleophilic permutational rearrangement

Intramolecular nucleophilic aromatic rearrangement

Mechanisms nucleophilic rearrangements

Nucleophiles Favorskii rearrangement

Nucleophilic Rearrangements and Tautomerizations

Nucleophilic aromatic substitution intramolecular rearrangements

Nucleophilic aromatic substitution rearrangements

Nucleophilic displacement reactions, acid rearrangements

Nucleophilic rearrangements

Nucleophilic rearrangements

Rearrangement ambident nucleophiles

Rearrangement carbocation intermediate trapped with nucleophiles

Rearrangement nitrogen-nucleophiles

Rearrangement nucleophilic addition followed

Rearrangement oxygen-nucleophiles

Rearrangement soft carbon nucleophiles

Rearrangement sulfur nucleophiles

Rearrangement, aryl carboxylate nucleophilic

Rearrangements rearrangement/nucleophilic

Rearrangements rearrangement/nucleophilic

Substitution, nucleophilic rearrangement

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